SU1663145A1 - A method for erecting slab buldings in shield-shaped falsework and device therefor - Google Patents

Abstract

The invention relates to the construction and can be used in the construction of monolithic buildings. The purpose of the invention is to improve the quality of construction and reduce labor costs in construction. The reinforcing elements 8 on the on-site specialized area is fixed on a mounted cross-bar, made in the form of an L-shaped body 1, in a design position relative to each other in the block with the help of clamps, nuts and stops. It is then fixed in the design position on the base conductor 6, mounted on the floor slab along the centering axes, using its orientation means. Then, the reinforcing elements 8 of the suspended unit are connected to the reinforcement cage of the building being erected, after which the mounted traverse is removed from the base conductor 6, on which the traverse 24 is fixed with the formwork panels 26 hinged on it. and 2 hp ff, 3 ill.

Description

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The invention relates to construction and can be used to connect a floor panel with wall panels.

The purpose of the invention is to increase the durability and improve the heat-shielding properties.

FIG. 1 shows a butt joint, a vertical section; in fig. 2 shows section A-A in FIG. one.

The butt joint of the overlap panel 1 with wall panels 2, one of which is made with tooth 3, and the other with a crest 4 and a 5 for placing the overlap panel 1, including sealing gaskets 6, placed between the wall panels and interconnected with embedded elements „

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The overlap panel 1 is made with anchors 7 protruding above its upper surface, the penalty 5 is formed at the top of the wall panels above their interface with each other, the embedded elements 8 of the wall panel are set offset from its edge, and in the embedded element 9 of the overlap panel a hole 10 is made through which the anchor 7 of the overlap panel is passed.

The diameter of the hole is slightly larger than the diameter of the anchor. When mounting a wall panel, its embedded part is welded to the embedded part of the overlap panel, the size of which allows installers to allow some deviations of design notes when installing the panel. Due to the absence of welding in the zone of anchors passing through the hole of the embedded part, it retains the ability to move vertically under the influence of forces from the panel. Increasing the diameter of the holes compared to the diameter of the anchors, as well as the flexibility of the supports along the axis of the external walls, make it possible to move the wall panel in the horizontal direction.

After finishing the installation, the 5-gap between the wall panel and the floor panel is covered with polystyrene concrete with a density of 300-500 kg / m3.

Filling with polystyrene concrete, having a coefficient of thermal conductivity of not more than 0.15 W / m ° C, makes it possible to warm the joint between the wall panel and the ceiling panel and to avoid the formation of condensate in this zone, and the incorporation of polystyrene concrete in this zone due to its good plasticity. It avoids the formation of cracks when subjected to forces from deformations arising in the panels.

In each slab, two supports are projected, each not less than 1/4 of its width from its edges.

The use of the proposed compound can reduce the stresses in the panels arising from the variable temperature and physical effects, and thereby increase their service life.

Claims (1)

Invention Formula The butt joint of the overlap panel with interconnected wall panels, one of which is made with a tooth, and the other with a comb and a fine for placing the overlap panel, including sealing pads placed between the wall panels and joined together by the fixings, and monolithing concrete, characterized in that, in order to increase durability and improve heat-shielding properties, the overlap panel is made with anchors protruding above its upper surface; wall panels are higher than the interface between them, embedded elements of the wall panel are set offset from its edge, and a hole is made in the embedded element of the ceiling panel through which the anchors of the ceiling panel are passed. Fig.i